CN207998704U - A kind of cloth discharge device, outlet assembly of overflow dyeing machine - Google Patents
A kind of cloth discharge device, outlet assembly of overflow dyeing machine Download PDFInfo
- Publication number
- CN207998704U CN207998704U CN201820269893.3U CN201820269893U CN207998704U CN 207998704 U CN207998704 U CN 207998704U CN 201820269893 U CN201820269893 U CN 201820269893U CN 207998704 U CN207998704 U CN 207998704U
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- Prior art keywords
- cloth
- cloth discharge
- water squeezing
- overflow dyeing
- dyeing machine
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model discloses a kind of cloth discharge device, outlet assemblies of overflow dyeing machine, belong to technical field of textile printing, including cloth discharge frame, the cloth discharge frame is equipped with the water fender of half-circle-arc shape, one end of the water fender is connected on cloth discharge frame, its other end extends towards the cylinder mouth direction of overflow dyeing machine, water squeezing component there are one being set above the water fender, rotation connection is useful for the deflector roll of driving cloth discharging and goes out cotton piece buff successively from the bottom up on the cloth discharge frame, the cloth discharge frame is equipped with motor, motor drives the rotation of cloth outputting wheel, the deflector roll and the rotary shaft end portion for going out cotton piece buff are respectively equipped with first gear and second gear, the first gear is intermeshed with second gear.The utility model not only increases the re-utilization of water resource, and reduces the phenomenon that worker has skidded when workshop is walked, and improves security performance.
Description
Technical field
The utility model belongs to technical field of textile printing, more specifically, it relates to a kind of cloth outputting of overflow dyeing machine
Device.
Background technology
High temperature and pressure overflow dyeing machine is mainly used for the dyeing of the knitted fabrics such as various pure cottons, terylene or spandex and front and back
Processing.Its dyeing flow is as follows:Fabric is entered through going out cotton piece buff in overflow dyeing machine from cylinder head first, is subsequently added into dyestuff water,
It operates overflow dyeing machine simultaneously and carries out dyeing processing at high temperature under high pressure, after then to be dyed, it is simultaneously that cloth is upward to open cylinder head
It is placed in containing box under after bypassing out cotton piece buff, while driving out cotton piece buff to be driven by motor, in cloth and between going out cotton piece buff
Frictional force under the action of drive cloth to be exported out of overflow dyeing machine.
It is a kind of cloth discharge device, outlet assembly of common overflow dyeing machine in existing workshop, including cloth discharge frame as shown in Figure 6
1, cloth discharge frame 1 is mounted at the cylinder mouth 3 of overflow dyeing machine, and there are two cotton piece buff 6 is gone out, two go out cotton piece buff 6 together for installation on cloth discharge frame 1
Axis is arranged, at the same it is above-mentioned go out cotton piece buff 6 bearing is connected on cloth discharge frame 1 respectively at both ends.In addition, being contaminated close to overflow in cloth discharge frame 1
Installation is equipped with motor 7, motor 7 can pass through the belt there are two guide ring 20 on above-mentioned cloth discharge frame 1 at the cylinder mouth 3 of color machine
Cotton piece buff 6 is driven out to rotate.At this time due to the cloth after dyeing carry a large amount of moisture, cloth is heavier, manually by cloth upwards about
After going out in cotton piece buff 6, larger frictional force can be had by going out between cotton piece buff 6 and cloth, then drive out 6 turns of cotton piece buff by motor 7
Export that can be by cloth from the cylinder mouth 3 of overflow dyeing machine at the uniform velocity when dynamic.
But also in that since the cloth after dyeing carries a large amount of moisture, during going out cotton piece buff and uploading dynamic, cloth
Moisture on can splash or be dropped on the ground in workshop, be easy to skid after the excess surface water in workshop, worker walks in workshop
It is easy to slip in the process.Therefore need to propose a kind of new technical solution to solve the above problems.
Utility model content
In view of the deficienciess of the prior art, going out to arrange the purpose of this utility model is to provide a kind of overflow dyeing machine
It sets, advantageously reduces the phenomenon that worker has skidded when workshop is walked, improve security performance.
To achieve the above object, the utility model provides following technical solution:A kind of cloth discharge device, outlet assembly of overflow dyeing machine,
Including cloth discharge frame, the cloth discharge frame is equipped with the water fender of half-circle-arc shape, and one end of the water fender is connected on cloth discharge frame,
Its other end extends towards the cylinder mouth direction of overflow dyeing machine, sets above the water fender there are one water squeezing component, it is described go out
Rotation connection is useful for the deflector roll of driving cloth discharging and goes out cotton piece buff successively from the bottom up on cloth holder, and the cloth discharge frame is equipped with electricity
Machine, motor drive the rotation of cloth outputting wheel, the deflector roll and the rotary shaft end portion for going out cotton piece buff to be respectively equipped with first gear and second gear,
The first gear is intermeshed with second gear.
By using above-mentioned technical proposal, after completing piece dyeing, the lid of overflow dyeing machine is opened, while manually will
One end of cloth is taken out from the cylinder mouth of overflow dyeing machine, and then cloth is upward through after water squeezing component again from deflector roll and cloth outputting
Gap between wheel passes through;Then driving motor so that deflector roll is relatively rotated with cotton piece buff is gone out(I.e. deflector roll rotates clockwise and cloth outputting
Wheel rotates counterclockwise or deflector roll rotates counterclockwise cotton piece buff and rotates clockwise), while cloth forward direction being pulled to be driven(That is cloth
Go out cotton piece buff direction from the cylinder mouth of overflow dyeing machine to be driven), cloth, which squeezes the moisture generated, at this time can be flowed into half-circle-arc shape
Water fender at, rather than be fed directly on ground, thus reduce the phenomenon that worker has skidded when workshop is walked, improve
Security performance.
The utility model is further arranged to:The water squeezing component includes the water squeezing disk being rotatably connected on above water fender,
The through-hole passed through for cloth, the radial direction interval of the inner wall upper edge water squeezing disk of the through-hole are equipped at the water squeezing disk center
Several grooves are offered, the rubber water squeezing block for being connected with square shape are slid in the groove, the rubber water squeezing block is close to groove
Side be equipped with spring, the other end of the spring is fixedly connected on the bottom wall of groove.
By using above-mentioned technical proposal, manually rubber water squeezing block is moved towards respective slot direction first, at this time bullet
Spring is compressed;After cloth is passed through through-hole manually simultaneously, rubber water squeezing block is unclamped, makes rubber water squeezing block under the action of the spring can court
The movement of water squeezing disk central axes direction, rubber piston squeezes cloth at this time so that the moisture content in cloth can be extruded, and be reduced
Water content on cloth so that worker is more easily and laborsaving when carrying cloth.
The utility model is further arranged to:It is spaced apart on the circumferential side wall of the water squeezing disk and is equipped with several and rubber
The compatible trepanning of water squeezing block is plugged with screw rod in the trepanning, and the inner end of the screw rod is fixedly connected on rubber water squeezing block,
Its outer end is stretched out outside trepanning and is installed with nut.
Since under the elastic reaction of spring, rubber water squeezing block meeting auto-extending is outside groove, and operator needs one at this time
While rubber water squeezing block is compressed in groove, cloth is passed through into above-mentioned through-hole on one side, operation is relatively laborious, therefore by using upper
State technical solution, worker only need to towards rubber water squeezing Block direction tightening nut, at this time screw rod can drive rubber water squeezing block towards
Groove direction moves, and rubber water squeezing block is locked in groove so that worker when cloth is passed through through-hole more
It is convenient and laborsaving.
The utility model is further arranged to:The side wall of the nut is equipped with regulation handle.
By using above-mentioned technical proposal, the relative position between the manual adjusting nut of worker and screw rod is facilitated so that
Worker's enhanced convenience and laborsaving in manual adjusting nut.
The utility model is further arranged to:The outer end of the screw rod is equipped with anticreep limited block.
By using above-mentioned technical proposal, anticreep limited block is set in the outer end of screw rod, effectively reduces nut from screw rod
The probability that end slides, reduces the probability of part loss, while facilitating operator and screwing or unscrew nut.
The utility model is further arranged to:The water squeezing disk is vertically arranged, and a guide ring is respectively equipped in its both sides.
By using above-mentioned technical proposal, guide ring is set at the both ends of water squeezing disk, limits the direction of cloth transmission, subtracts
Lack the probability that cloth deviates predetermined transmission direction, improves the stability of transmission.
The utility model is further arranged to:Several holders are equipped at intervals between the guide ring and water squeezing disk.
By using above-mentioned technical proposal, holder is set between guide ring and water squeezing disk, realizes guide ring and water squeezing
It links between disk, improves the stabilization connected between guide ring and water squeezing disk.
The utility model is further arranged to:The guiding collar bearing is connected on the cloth discharge frame.
Since the circumferential side wall of water squeezing disk is equipped with screw rod and nut, if being also set up on the circumferential side wall of water squeezing disk at this time
Bearing ring can then influence the normal operation of worker, therefore by using above-mentioned technical proposal, will be oriented to collar bearing and be connected to out
On cloth holder, while the linkage between guide ring and water squeezing disk is realized by holder, has promoted the rotation of water squeezing disk indirectly, passed through
Twisting resistance is pressed further by cloth water outlet, improves water rate.
The utility model is further arranged to:The circumferential side wall phase with the guide ring is rotatably connected on the cloth discharge frame
The friction pulley of conflict, water squeezing motor is equipped on the cloth discharge frame, and the friction pulley is mounted on the output shaft of water squeezing motor.
By using above-mentioned technical proposal, drive guide ring rotation rather than gear engagement that guide ring is driven to turn using friction pulley
It is dynamic, worker can after closing motor also can directly will the angle of rotation or adjustment guide ring manually, facilitate the later stage be unfolded or
Open cloth.
The utility model is further arranged to:Drainpipe there are one being opened up downwards at the lower face of the water fender, it is described
Header tank is equipped with below drainpipe.
By using above-mentioned technical proposal, drainpipe and header tank, the process of cloth water squeezing at this time are installed below water fender
The moisture of middle generation, which can be flowed into via water fender, drainpipe in header tank, to be stored in order to which the later stage uses, and water money is reduced
The waste in source further improves the re-utilization of water resource.
In conclusion the utility model has the advantages that:
1, the utility model reduces mill floor ponding, reduces the phenomenon that worker has skidded when workshop is walked,
Improve security performance;
2, by squeezing and reversing cloth, the water content on cloth can be effectively reduced so that worker is when carrying cloth
It is more easily and laborsaving;
3, drainpipe and header tank below water fender are installed, the waste of water resource is reduced, further improves water money
The re-utilization in source.
Description of the drawings
Fig. 1 is the stereogram of the present embodiment, is mainly used for opposite between the cylinder head and cloth discharge frame that embody overflow dyeing machine
Position relationship;
Fig. 2 is the partial sectional view of the present embodiment, is mainly used for embodying the relative position of water squeezing component;
Fig. 3 is the enlarged drawing of A in Fig. 2, is mainly used for embodying water squeezing disk, guide ring, holder, rubber water squeezing block, screw rod, spiral shell
Relative position and connection relation between female, spring and groove;
Fig. 4 is the stereogram of another angle in the present embodiment;
Fig. 5 is the enlarged drawing of B in Fig. 4, is mainly used for embodying water squeezing disk, guide ring, holder and the rubber in water squeezing component
The relative position relation of glue water squeezing block;
Fig. 6 is the stereogram of the prior art.
Description of the drawings:1, cloth discharge frame;2, water fender;3, cylinder mouth;4, water squeezing component;5, deflector roll;6, go out cotton piece buff;7, motor;
8, first gear;9, second gear;10, water squeezing disk;11, through-hole;12, groove;13, rubber water squeezing block;14, spring;15, it opens
Hole;16, screw rod;17, nut;18, regulation handle;19, anticreep limited block;20, guide ring;21, holder;23, friction pulley;24,
Drainpipe;25, header tank;26, water squeezing motor.
Specific implementation mode
The utility model is described in further detail below in conjunction with attached drawing.
Wherein identical parts are presented with like reference characters.It should be noted that word used in the following description
Language "front", "rear", "left", "right", "up" and "down" refer to the direction in attached drawing, word " bottom surface " and " top surface ", "inner" and
"outside" refers respectively to the direction towards or away from geometric center of specific component.
A kind of cloth discharge device, outlet assembly of overflow dyeing machine, as shown in Figure 1, including corresponding with the cylinder mouth 3 of parallel bars overflow dyeing machine
Cloth discharge frame 1, in one end far from cylinder mouth 3, bearing is connected with a deflector roll 5 to above-mentioned cloth discharge frame 1 successively from the bottom up and two go out
Cotton piece buff 6, two go out the coaxial arrangement of cotton piece buff 6, wherein deflector roll 5 and go out cotton piece buff 6 and rotate backward.Simultaneously in deflector roll 5 and between going out cotton piece buff 6
Gap setting, thus cloth can be passed through from above-mentioned gap, and the upper and lower end face of cloth respectively with deflector roll 5 and go out 6 phase of cotton piece buff
It contradicts, thus cloth can be exported under the action of above-mentioned frictional force.
As shown in Figure 1, driving cloth export for convenience, in the upper surface of cloth discharge frame 1, there are one for driving out for installation
The motor 7 that cotton piece buff 6 rotates, the motor 7 are servo motor 7;Simultaneously first gear 8 is installed in the rotation axis of deflector roll 5, and goes out
The rotation axis end of cotton piece buff 6 is equipped with and 8 intermeshing second gear 9 of above-mentioned first gear.Meanwhile going out turning for cotton piece buff 6
The end of moving axis is also equipped with the belt pulley being coaxially disposed with second gear 9(It is unmarked in figure), belt pulley passes through belt(In figure
It is unmarked)It is connected on the output shaft of motor 7, drives belt from there through motor 7, further driven under the action of frictional force
Pulley rotation so that the rotation axis rotation for going out cotton piece buff 6 while driving out cotton piece buff 6 and second gear 9 to rotate together, and at this time the
Two gears 9 drive first gear 8 to rotate backward so that deflector roll 5 rotates backward therewith, thus by cloth and deflector roll 5 and cloth outputting
Frictional force between wheel 6, promotes cloth to export, very convenient.
As shown in Figure 1, being dropped on the ground in workshop to reduce moisture on cloth, two pieces are equipped on cloth discharge frame 1
The water fender 2 of half-circle-arc shape, 2 upper end opening of water fender, and it is mounted on slanting baffle in the left and right ends of water fender 2(Figure
In it is unmarked), thus can be further reduced moisture and be dropped on mill floor, reduce slipping phenomenon, make worker in workshop
It is more safe when walking.
In addition as shown in Figure 1, being mounted on a supporting rod at the lower face of every piece of water fender 2(It is unmarked in figure),
The lower end for simultaneously supporting bar is fixedly connected on cloth discharge frame 1, and the other end of water fender 2 is towards 3 side of cylinder mouth of overflow dyeing machine
To extending obliquely downward;While being further opened with a drainpipe 24 downwards at the lower face of water fender 2, under above-mentioned drainpipe 24
There are one the header tanks 25 of upper end opening for side's installation.The moisture on cloth can be flowed directly into via water fender 2, drainpipe 24 at this time
Into header tank 25, the phenomenon that the moisture on cloth is dropped on mill floor is thereby reduced.
In order to reduce the water content on cloth, as shown in Figure 2 and Figure 4, in the top of water fender 2, there are one water squeezings for installation
Component 4.It wherein combines shown in Fig. 5, water squeezing component 4 includes being mounted on squeezing for the cylindrical shape for being rotatably connected on 2 top of water fender
Water pond 10 is opened up at 10 center of water squeezing disk there are one circular through-hole 11, and cloth can be passed through out of above-mentioned through-hole 11, simultaneously
In conjunction with shown in Fig. 3, it is spaced apart and is set there are four groove 12 in the radial direction of the inner wall upper edge water squeezing disk 10 of through-hole 11, in groove 12
Sliding is connected with the rubber water squeezing block 13 of square shape, and rubber water squeezing block 13 is being equipped with spring 14, spring on the side of groove 12
14 other end is fixedly connected on the bottom wall of groove 12.
As shown in figure 5, cloth is passed through through-hole 11 by worker for convenience, in conjunction with shown in Fig. 3, in the circumference of water squeezing disk 10
It is spaced apart round hole 15 compatible with above-mentioned rubber water squeezing block 13 there are four setting on wall, is inserted in each round hole 15
It is connected to a screw rod 16, the inner end of wherein screw rod 16 is welded on rubber water squeezing block 13, and outer end is stretched out outer in trepanning 15 and revolved
Equipped with nut 17.
As shown in figure 3, nut 17 is screwed or unscrewed in order to facilitate worker, regulation handle is installed on the side wall of nut 17
18, thus worker need to only hold the relative position between regulation handle 18 i.e. adjustable nut 17 and screw rod 16, it is very convenient.
As shown in Figure 3 and Figure 5, in order to reduce the probability of part loss, one piece of anticreep limit is installed at the outer end of screw rod 16
Position block 19, anticreep limited block 19 and the outer end of screw rod 16 are integrally formed, and anticreep limited block 19 is cylindrical, has a diameter larger than spiral shell
The maximum gauge of mother 17, thus effectively reduces the probability that nut 17 slides from 16 end of screw rod, reduces the machine of part loss
Rate.
As shown in figure 5, the circumferential side wall due to water squeezing disk 10 is equipped with screw rod 16 and nut 17, if at this time in water squeezing disk 10
Circumferential side wall on also set up bearing ring then and can influence the normal operation of worker so that worker in adjusting screw rod 16 relatively not
Just, therefore by 20 bearing of guide ring it is connected on cloth discharge frame 1.At the same time, in order to improve the stability of transmission, water squeezing disk 10 is perpendicular
Straight setting, an and circular guide ring 20 is separately installed in the both sides of above-mentioned water squeezing disk 10, each guide ring 20 with squeeze
Interval is equipped with four holders 21 between water pond 10.Therefore 20 bearing of guide ring is connected on cloth discharge frame 1, and indirect general
10 bearing of water squeezing disk is connected on cloth discharge frame 1, while realizing by holder 21 connection between guide ring 20 and water squeezing disk 10 again
It is dynamic, promote the rotation of water squeezing disk 10 indirectly, by above-mentioned twisting resistance, has been pressed further by cloth water outlet, improves water rate.
As shown in figure 5, for convenience worker's later stage manually expansion or open cloth, be rotatably connected on cloth discharge frame 1 with
The inconsistent friction pulley 23 of the circumferential side wall of guide ring 20, is in addition equipped on cloth discharge frame 1 for driving friction pulley 23 to rotate
Water squeezing motor 26, friction pulley 23 be mounted on water squeezing motor 26 output shaft on.Thus friction pulley 23 is used to drive guide ring 20
Rotation rather than gear engagement drive guide ring 20 to rotate, and worker also can directly will can manually rotate or adjust after closing motor 7
The angle of whole guide ring 20 facilitates later stage expansion or opens cloth.
Operation principle:
After completing piece dyeing, the lid of overflow dyeing machine is opened, while manually by one end of cloth from overflow dyeing
It is taken out at the cylinder mouth 3 of machine, nut 17 is then tightened by regulation handle 18, spring 14 is compressed at this time, and rubber water squeezing block 13
It can be moved towards 12 direction of confronting grooves, through-hole 11 becomes larger at this time;Then cloth is upward through guide ring 20, water squeezing disk again
It is passed through again from deflector roll 5 and the gap gone out between cotton piece buff 6 after 10 through-hole 11 and another guide ring 20, at this time up and down the two of cloth
End respectively with go out cotton piece buff 6 and deflector roll 5 is inconsistent;Subsequent loosening nut 17, under the elastic reaction of spring 14, rubber water squeezing block 13
It can be moved towards 10 central axes direction of water squeezing disk, and clamping cloth;Then start motor 7, the is driven under the action of belt
One gear 8 goes out cotton piece buff 6 and rotates together, and first gear 8 drives second gear 9 and deflector roll 5 to rotate backward together, thus deflector roll 5 with
Go out the relative rotation of cotton piece buff 6, you can pull the transmission of cloth forward direction(I.e. cloth goes out 6 direction of cotton piece buff from the cylinder mouth 3 of overflow dyeing machine and passes
It is dynamic).
At the same time, friction pulley 23 is driven to rotate by water squeezing motor 26, frictional force drives guide ring 20 to rotate, in holder
Under 21 linkage effect so that water squeezing disk 10 rotates therewith, and at this time under the action of twisting resistance, the moisture on cloth is expressed into
It on water fender 2, is stored being drained into header tank 25 via drainpipe 24, you can complete preliminary hydro-extraction and the cloth outputting of cloth
Operation.
Specific embodiment is only the explanation to the utility model, is not limitations of the present invention, this field
Technical staff can as needed make the present embodiment the modification of not creative contribution after reading this specification, but only
It all to be protected by Patent Law in the right of the utility model.
Claims (10)
1. a kind of cloth discharge device, outlet assembly of overflow dyeing machine, including cloth discharge frame(1), it is characterised in that:The cloth discharge frame(1)It is equipped with half
The water fender of circular shape(2), the water fender(2)One end be connected to cloth discharge frame(1)On, the other end is towards overflow dyeing
The cylinder mouth of machine(3)Direction extends, the water fender(2)Top set there are one water squeezing component(4), the cloth discharge frame(1)On from
Under up successively rotation connection be useful for driving cloth discharging deflector roll(5)With go out cotton piece buff(6), the cloth discharge frame(1)It is equipped with
Motor(7), motor(7)Drive out cotton piece buff(6)Rotation, the deflector roll(5)With go out cotton piece buff(6)Rotary shaft end portion be respectively equipped with
One gear(8)And second gear(9), the first gear(8)With second gear(9)Intermeshing.
2. a kind of cloth discharge device, outlet assembly of overflow dyeing machine according to claim 1, it is characterised in that:The water squeezing component(4)
Including being rotatably connected on water fender(2)The water squeezing disk of top(10), the water squeezing disk(10)It is equipped at center and is passed through for cloth
Through-hole(11), the through-hole(11)Inner wall upper edge water squeezing disk(10)Radial direction be spaced apart be equipped with several grooves(12),
The groove(12)It is interior to slide the rubber water squeezing block for being connected with square shape(13), the rubber water squeezing block(13)Close to groove(12)
Side be equipped with spring(14), the spring(14)The other end be fixedly connected on groove(12)Bottom wall on.
3. a kind of cloth discharge device, outlet assembly of overflow dyeing machine according to claim 2, it is characterised in that:The water squeezing disk(10)'s
It is spaced apart on circumferential side wall and is equipped with several and rubber water squeezing block(13)Compatible trepanning(15), the trepanning(15)Interpolation
It is connected to screw rod(16), the screw rod(16)Inner end be fixedly connected on rubber water squeezing block(13)On, outer end is stretched out in trepanning
(15)Outside and it is installed with nut(17).
4. a kind of cloth discharge device, outlet assembly of overflow dyeing machine according to claim 3, it is characterised in that:The nut(17)Side
Wall is equipped with regulation handle(18).
5. a kind of cloth discharge device, outlet assembly of overflow dyeing machine according to claim 4, it is characterised in that:The screw rod(16)It is outer
End is equipped with anticreep limited block(19).
6. a kind of cloth discharge device, outlet assembly of overflow dyeing machine according to claim 5, it is characterised in that:The water squeezing disk(10)It is perpendicular
Straight setting, a guide ring is respectively equipped in its both sides(20).
7. a kind of cloth discharge device, outlet assembly of overflow dyeing machine according to claim 6, it is characterised in that:The guide ring(20)With
Water squeezing disk(10)Between be equipped at intervals with several holders(21).
8. a kind of cloth discharge device, outlet assembly of overflow dyeing machine according to claim 7, it is characterised in that:The guide ring(20)Axis
It holds and is connected to the cloth discharge frame(1)On.
9. a kind of cloth discharge device, outlet assembly of overflow dyeing machine according to claim 8, it is characterised in that:The cloth discharge frame(1)On
It is rotatably connected to and the guide ring(20)The inconsistent friction pulley of circumferential side wall(23), the cloth discharge frame(1)On be equipped with
Water squeezing motor(26), the friction pulley(23)Mounted on water squeezing motor(26)Output shaft on.
10. a kind of cloth discharge device, outlet assembly of overflow dyeing machine according to any one of claim 1-9, it is characterised in that:Institute
State water fender(2)Lower face at open up downwards there are one drainpipe(24), the drainpipe(24)Lower section is equipped with header tank
(25).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820269893.3U CN207998704U (en) | 2018-08-28 | 2018-08-28 | A kind of cloth discharge device, outlet assembly of overflow dyeing machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820269893.3U CN207998704U (en) | 2018-08-28 | 2018-08-28 | A kind of cloth discharge device, outlet assembly of overflow dyeing machine |
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Publication Number | Publication Date |
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CN207998704U true CN207998704U (en) | 2018-10-23 |
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CN201820269893.3U Expired - Fee Related CN207998704U (en) | 2018-08-28 | 2018-08-28 | A kind of cloth discharge device, outlet assembly of overflow dyeing machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111876949A (en) * | 2020-08-10 | 2020-11-03 | 毛建根 | Overflow cylinder cloth discharging device for printing and dyeing |
-
2018
- 2018-08-28 CN CN201820269893.3U patent/CN207998704U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111876949A (en) * | 2020-08-10 | 2020-11-03 | 毛建根 | Overflow cylinder cloth discharging device for printing and dyeing |
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Granted publication date: 20181023 Termination date: 20200828 |